Driver protection system for mobile operating means

ABSTRACT

The present invention relates to a driver-protection. system for mobile equipment, in particular the driver&#39;s cab of a commercial vehicle with a driver&#39;s seat, comprising a driver-protection roof, which is open laterally at least on one side, with front and rear members and with an ellipsoidal bar-type frame comprising a top ellipse bar and a bottom ellipse bar.

[0001] The present invention relates to a driver-protection system for mobile equipment, in particular the driver's cab of a commercial vehicle with a driver's seat, according to the preamble of claim 1.

[0002] A number of safety systems for protecting the driver are known in the prior art. In particular in the case of vehicles such as fork-lift trucks, it is necessary to protect the driver against injury, in particular as a result of load-and centrifugal-force-induced accidents or roadway-induced overturning.

[0003] Although a number of manufacturers provide systems for the stability control of such vehicles during cornering and/or travelling with a raised load, and the overturning immunity of the vehicle such as a fork-lift truck is thus increased, it is not possible to rule out overturning on account of unevennesses in the roadway and driving errors, with the result that it is necessary to provide, for the driver, securing systems which have to be either installed in the system from the outset or retrofitted.

[0004] In addition to the abovementioned active systems, the prior art also includes driver-protection systems in the case of which accident protection is ensured by means of a belt, a bar or a specific configuration of the cab.

[0005] In the case of a safety arrangement which is known from DE-298 18 149 U1, a restraining bar extends between two adjacent pillars of a driver's cab, one end section of said restraining bar being fastened, via an articulation, on one pillar, for example the B-pillar, of a driver's cab. Provided on the other pillar, for example the A-pillar, is a locking means, which can secure the retaining bar in its closed position.

[0006] A disadvantage with this solution is that considerable production outlay is necessary in order to fasten the locking device, on the one hand, and the pivoting articulation, on the other hand, on the two pillars.

[0007] A further safety arrangement is described in DE-200 02 106 U1. This safety arrangement according to the above-mentioned utility model comprises a pivoting articulation which is fastened on a pillar and bears a retaining arm which projects into an opening of the driver's cab, the safety arrangement being characterized in that a locking means is arranged in the region of the pivoting articulation.

[0008] This type of solution is intended to be more straightforward than the restraining mechanism described above in that, as a result of the pivoting articulation being combined with the locking device, only a single installation step is necessary.

[0009] Common to both the systems described above, however, is the fact that they only protect the driver to an insufficient extent against injury.

[0010] Common to all the systems known in the prior art, disadvantages in the following connection:

[0011] the system is not always effective without the help of the driver when the vehicle is travelling;

[0012] the drivers are impeded when climbing into and out of the vehicle or when reversing;

[0013] the system is not suitable for all heights;

[0014] the system is not maintenance-free or reliable and cannot easily be checked during servicing.

[0015] It is therefore an object of the invention to provide a driver-protection system which, as far as possible, eliminates all of the above-mentioned disadvantages of the systems known in the prior art.

[0016] The object of the invention is achieved by providing a driver-protection system having the features of the main claim.

[0017] The invention thus relates to a driver-protection system for commercial vehicles with a driver's seat, a driver-protection roof, which is open laterally at least on one side, comprising front and rear members and an ellipsoidal bar-type frame with a top ellipse bar and a bottom ellipse bar, wherein the bars of the ellipsoidal bar-type frame, the bars being connected to one another at their ends, are articulated on one member by means of a hinge and are retained on the other member by means of a locking system, and wherein the hinge is fitted on one member, above the backrest, and the locking system is fitted on the other member, level with the seat surface of the seat.

[0018] Configuring the driver-protection system in the form of the ellipsoidal bar-type frame with a top ellipse bar and a bottom ellipse bar ensures that the arm, body and leg regions of the driver are protected in the lateral direction irrespective of the height of the driver. Hip, knee and shoulder points are protected for all driver heights, from the shortest female to the tallest male, by the adapted radii of the ellipsoidal bar.

[0019] The driver-protection system is suitable for all types of commercial vehicle such as fork-lift trucks, tractors and construction and agricultural vehicles.

[0020] In order to reduce the risk of injury, the ellipsoidal bar-type frame is preferably produced from a rectangular profile.

[0021] In order to increase the rigidity and for the increased protection of the driver, a further preferred embodiment provides a retaining bar which starts approximately in the centre of the bottom bar of the ellipsoidal bar-type frame and is articulated on the member via a further hinge, beneath the first hinge, approximately level with the transition region between the backrest and seat of the vehicle seat. This embodiment further increases the rigidity of the system and additionally protects the pelvic region of the driver by means of the retaining bar. Furthermore, this embodiment does not restrict the freedom of movement of the vehicle driver since sufficient freedom for elbow movement is provided between the retaining bar and the two ellipse bars.

[0022] In a further preferred embodiment, the retaining bar is extended beyond the bottom ellipse bar, with the result that it is secured on the top ellipse bar. This embodiment results in increased torsional rigidity of the ellipsoidal bar. It is further advantageous, in the case of this embodiment, if provided between the bottom ellipse bar and the retaining bar is a triangular protective panel which is made of sheet metal and may be provided, for example, with a securing means for a

[0023] The hinges used according to the invention and the fastening mechanism are preferably configured as a screw-type or clamping fastening, with the result that the securing mechanism according to the invention can easily be retrofitted.

[0024] A preferred embodiment provides means which cause the securing mechanism according to the invention to be automatically closed and/or kept closed. These means may be configured, for example, in the form of a spring, by the hinge or the hinges being fitted obliquely or by a restoring spring installed in the hinges.

[0025] It is further advantageous for the locking system to have a spring catch, a turn-lock fastener or the like.

[0026] The invention is explained in more detail in the following description with reference to an exemplary embodiment illustrated in the drawings, in which:

[0027]FIG. 1 shows a side view of a driver-protection roof for a fork-lift truck with the driver-protection system installed;

[0028]FIG. 2 shows a side view of a driver-protection roof for a fork-lift truck with the driver-protection system installed and with a driver (5. percentile female), and

[0029]FIG. 3 shows a side view of a driver-protection roof for a fork-lift truck with the driver-protection system installed and with a driver (95. percentile male).

[0030] As is shown in FIG. 1, in the side view of the driver-protection roof 1, the lateral opening 2 is bounded on the front side by the A-pillar 3 and on the rear side by the B-pillar 4, at the top by the top crossmember 5, and at the bottom by the bottom crossmember 6, of the driver-protection roof. The driver's seat 7 is arranged in a displaceable manner on a base, and the driver-protection system 8 according to the invention subdivides the lateral opening 2 of the driver-protection roof.

[0031] In the case of the embodiment shown in FIG. 1, the driver-protection system 8 according to the invention has a bottom fastening element 9, a top fastening element 10 and a support panel 11, for example for a hip pad, arranged between the bottom ellipse bar 15 and the retaining bar 16.

[0032] At the top end of the ellipse-bar frame, the latter is connected to the top fastening element 10 via the hinge 12, while the retaining bar, preferably extending forwards from the B-pillar in the embodiment shown in the figure, runs beyond the bottom ellipse bar 15 to the top ellipse bar 14 and is secured on the latter. This configuration further increases the rigidity and the protective action of the protective system.

[0033] The retaining bar 16 preferably has an actuating element 17 with pulling connection, in the transition region to the top ellipse bar 14, in order to actuate the locking device 18, provided in the front region of the ellipse-bar frame, with locking bolt 20. In a particularly preferred embodiment, the actuating element 17, for ergonomic reasons, is integrated in the extended retaining bar. The locking device 18 is secured on the front A-pillar via the securing means 19.

[0034]FIGS. 2 and 3 show a side view of a driver-protection roof with different heights of driver, and show the position of the respective shoulder points (21; 24), hip points (22; 25) and knee points (23; 26) for a short driver (FIG. 2) and a tall driver (FIG. 3). As is shown in these figures, the driver-protection system according to the invention reliably protects the driver irrespective of his/her height. 

1. Driver-protection system for mobile equipment, in particular commercial vehicles, with a driver's seat, a driver-protection roof (1), which is open laterally at least on one side, comprising front and rear members (3; 4) and an ellipsoidal bar-type frame (8) with a top ellipse bar (14) and a bottom ellipse bar (15), wherein the ellipse bars (14; 15) of the ellipsoidal bar-type frame (8), the bars being connected to one another at their ends, are articulated on one member (4) by means of a hinge (12) and are retained on the other member (3) by means of a locking system (18), and wherein the hinge (12) is fitted on one member (4), above the backrest of the vehicle seat (7), and the locking system (18) is fitted on the other member (3), level with the seat surface of the vehicle seat (7).
 2. Driver-protection system according to claim 1, characterized by further comprising a retaining bar (16) which starts approximately in the centre of the bottom ellipse bar (15) of the ellipsoidal bar-type frame (8) and is articulated on the member (4) via a approximately level with the transition region between the backrest and seat of the vehicle seat (7).
 3. Driver-protection system according to claim 2, characterized by further comprising, between the bottom ellipse bar (15) and the retaining bar (16), a protective panel (11) which is made of sheet metal and may be provided, for example, with a securing means for a hip pad.
 4. Driver-protection system according to claim 2 or 3, characterized in that the retaining bar (16) is extended beyond the bottom ellipse bar (15) to the top ellipse bar (14) and is secured on the top ellipse bar (14).
 5. Driver-protection system according to claim 2 or 3, characterized in that an actuating element (17) for the locking system (18) is provided on the top ellipse bar (14), preferably in the transition region between the top ellipse bar (14) and the retaining bar (16).
 6. Driver-protection system according to anyone of the preceding claims, characterized in that the retaining bar (16), bottom ellipse bar (15) and top ellipse bar (14) have a rectangular cross section.
 7. Vehicle with a driver-protection system according to anyone of claims 1 to
 6. 